Raloxifene, a new selective estrogen receptor modulator

Are noscapine and raloxifene ligands of the bradykinin B2 receptor? An assessment based on the human umbilical vein contractility assay

The centrally acting antitussive opiate derivative, noscapine, has been claimed to be a non-competitive bradykinin B₂ receptor antagonist. Raloxifene, a selective estrogen receptor modulator, was predicted to bind the bradykinin B₂ receptor and to exert a partial agonist activity. These intriguing claims suggest that new molecular scaffolds ("chemotypes") may be identified for small molecule ligands of kinin receptors and that some off-target effects of noscapine or raloxifene may be mediated by bradykinin B₂ receptors. An established contractile bioassay for ligands of the bradykinin B₂ receptor, the isolated human umbilical vein, was exploited to characterize the inhibitory effect of noscapine and raloxifene on the B₂ receptor-mediated contractile response to bradykinin. Observed effects were compared with those of the peptide antagonist icatibant, a potent, selective and competitive B₂ receptor antagonist. Our results indicate that neither noscapine (2.5 µM) nor raloxifene (20 µM) behave as B₂ receptor antagonists in concentrations that vastly exceeded an effective concentration of the control antagonist, icatibant; further, none of these drugs had direct contractile effects. It is suggested that the previously reported B₂ receptor inhibitory effect of noscapine, a putative sigma-receptor agonist, might result from an indirect physiological antagonism, while raloxifene did not appear to have any significant affinity for the B₂ receptors.

Discovery of a Bradykinin B2 Partial Agonist Profile of Raloxifene in a Drug Repurposing Campaign

Covid-19 urges a deeper understanding of the underlying molecular mechanisms involved in illness progression to provide a prompt therapeutical response with an adequate use of available drugs, including drug repurposing. Recently, it was suggested that a dysregulated bradykinin signaling can trigger the cytokine storm observed in patients with severe Covid-19. In the scope of a drug repurposing campaign undertaken to identify bradykinin antagonists, raloxifene was identified as prospective compound in a virtual screening process. The pharmacodynamics profile of raloxifene towards bradykinin receptors is reported in the present work, showing a weak selective partial agonist profile at the B2 receptor. In view of this new profile, its possible use as a therapeutical agent for the treatment of severe Covid-19 is discussed.

Raloxifene protects endothelial cell function against oxidative stress

BACKGROUND AND PURPOSE

Maintaining a delicate balance between the generation of nitric oxide (NO) and removal of reactive oxygen species (ROS) within the vascular wall is crucial to the physiological regulation of vascular tone. Increased production of ROS reduces the effect and/or bioavailability of NO, leading to an impaired endothelial function. This study tested the hypothesis that raloxifene, a selective oestrogen receptor modulator, can prevent endothelial dysfunction under oxidative stress.

EXPERIMENTAL APPROACH

Changes in isometric tension were measured in rat aortic rings. The content of cyclic GMP in aortic tissue was determined by radioimmunoassay. Phosphorylation of endothelial NOS (eNOS) and Akt was assayed by Western blot analysis.

KEY RESULTS

In rings with endothelium, ACh-induced relaxations were attenuated by a ROS-generating reaction (hypoxanthine plus xanthine oxidase, HXXO). The impaired relaxations were ameliorated by acute treatment with raloxifene. HXXO suppressed the ACh-stimulated increase in cyclic GMP levels; this effect was antagonized by raloxifene. The improved endothelial function by raloxifene was abolished by ICI 182,780, and by wortmannin or LY294002. Raloxifene also protected endothelial cell function against H2O2. Raloxifene increased the phosphorylation of eNOS at Ser-1177 and Akt at Ser-473; this effect was blocked by ICI 182,780. Finally, raloxifene was not directly involved in scavenging ROS, and neither inhibited the activity of xanthine oxidase nor stimulated that of superoxide dismutase.

CONCLUSION AND IMPLICATIONS

Raloxifene is effective against oxidative stress-induced endothelial dysfunction in vitro through an ICI 182,780-sensitive mechanism that involves the increased phosphorylation and activity of Akt and eNOS in rat aortae.

Probing protein ligand interactions by automated hydrogen/deuterium exchange mass spectrometry

Amide hydrogen/deuterium exchange is a powerful biophysical technique for probing changes in protein dynamics induced by ligand interaction. The inherent low throughput of the technology has limited its impact on drug screening and lead optimization. Automation increases the throughput of H/D exchange to make it compatible with drug discovery efforts. Here we describe the first fully automated H/D exchange system that provides highly reproducible H/D exchange kinetics from 130 ms to 24 h. Throughput is maximized by parallel sample processing, and the system can run H/D exchange assays in triplicate without user intervention. We demonstrate the utility of this system to differentiate structural perturbations in the ligand-binding domain (LBD) of the nuclear receptor PPARgamma induced upon binding a full agonist and a partial agonist. PPARgamma is the target of glitazones, drugs used for treatment of insulin resistance associated with type II diabetes. Recently it has been shown that partial agonists of PPARgamma have insulin sensitization properties while lacking several adverse effects associated with full agonist drugs. To further examine the mechanism of partial agonist activation of PPARgamma, we extended our studies to the analysis of ligand interactions with the heterodimeric complex of PPARgamma/RXRalpha LBDs. To facilitate analysis of H/D exchange of large protein complexes, we performed the experiment with a 14.5-T Fourier transform ion cyclotron resonance mass spectrometer capable of measuring mass with accuracy in the ppb range.

Effects of raloxifene therapy on plasma renin and aldosterone levels and blood pressure in postmenopausal women

OBJECTIVE

Blood pressure, which generally increases after menopause, is one of the best tools to characterize cardiovascular disease. The renin-aldosterone system plays a role in determining cardiovascular risk and the role of estrogen in the regulation of angiotensinogen gene expression and serum levels is well known. Raloxifene can induce endothelium-dependent vasodilation without affecting endothelium-independent vasorelaxation. The aim of the study was to investigate the effects of raloxifene on the renin-aldosterone system and blood pressure in postmenopausal women.

DESIGNS

Forty women, 54-59 years of age, in physiological menopause for 6 months to 4 years, were enrolled in the study and treated with raloxifene 60 mg/day for 6 months. All had blood pressure less than 130/85 mm Hg at the start of the study. The women were divided into two groups: the first (group A; 20 women) with normal blood pressure and the second (group B; 20 women) with previous high blood pressure treated with antihypertensive drugs, not angiotensin-converting enzyme inhibitors or angiotensin receptor blockers.

RESULTS

No significant changes in plasma renin activity (PRA) or plasma concentrations of aldosterone were observed between the two groups after 6 months of raloxifene use. There was a slight reduction in PRA (11+/-4% for group A and 13+/-5% for group B) and in plasma levels of aldosterone (3.6+/-0.5% and 4.6+/-0.5%, respectively) with respect to basal values, but neither change was statistically significant.

CONCLUSIONS

The results of the present study show that raloxifene at 60 mg/day dose is well tolerated and has no clinical impact on blood pressure, PRA or aldosterone in postmenopausal women.

Estrogen and raloxifene, a selective estrogen receptor modulator, ameliorate renal damage in db/db mice

Despite the potentially protective effects of estrogen on bone and cardiovascular tissue as well as against kidney diseases, its effects on diabetic nephropathy are unknown. Here, we examined the therapeutic effectiveness of 17beta-estradiol and raloxifene, a selective estrogen receptor modulator, for preventing functional and histological alterations in the kidneys of db/db mice, a model of type 2 diabetes. In the first experiment, ovariectomized female db/db mice were treated with 17beta-estradiol for 8 weeks. The treatment significantly ameliorated albuminuria, attenuated weight gain, and reduced hyperglycemia in diabetic ovariectomized db/db mice. Histologically, the increases in mesangial area and the accumulation of fibronectin were significantly inhibited by 17beta-estradiol. In the second experiment, mice were administered vehicle or raloxifene hydrochloride (3 mg/kg/day) for 8 weeks. Raloxifene significantly reduced mesangial expansion and fibronectin accumulation in db/db mice, but in contrast to 17beta-estradiol, it failed to affect body weight or hyperglycemia. An in vitro experiment further demonstrated that raloxifene inhibited transforming growth factor beta-1-induced fibronectin transcription and AP-1 activity. Thus, our findings suggest that raloxifene, which lacks the harmful effects of estrogen, is useful for the treatment of diabetic nephropathy.

E4F1, a novel estrogen-responsive gene in possible atheroprotection, revealed by microarray analysis

Estrogen has been postulated to be involved in inhibition of vascular smooth muscle cell (VSMC) proliferation mainly via estrogen receptor (ER), but the detailed mechanism has remained primarily unknown. Therefore, in this study, microarray analysis was used in two types of cultured human VSMCs: one positive for ER alpha, and the other for ER beta, which were treated by estrogens to detect the estrogen-responsive genes. We also used quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) to evaluate mRNA levels of selective target gene (TG) in these cells. We further studied whether the TG product was involved in inhibition of proliferation using small interfering RNA (siRNA) of the TG transfection. We subsequently used quantitative RT-PCR and in situ hybridization analysis to evaluate the expression of these gene products in human aorta. E4F1, a possible inducer of cell growth arrest, was markedly increased only in ER alpha-positive VSMCs by estrogens in both microarray and RT-PCR analyses. Blocking of E4F1 using siRNA suppressed estrogenic inhibition of ER alpha-positive VSMC proliferation. E4F1 mRNA was abundant in premenopausal female aorta with mild atherosclerotic changes. E4F1 is therefore considered one of the estrogen-responsive genes involving ER alpha-mediated inhibition of VSMC proliferation and may play an important role in estrogen-related atheroprotection of human aorta.

Peritoneal carcinoma in women with genetic susceptibility: implications for Jewish populations

Women from families with multiple cases of breast and ovarian cancer, specifically those who carry cancer-associated mutations of BRCA1 or BRCA2 are at increased life-time risk for peritoneal carcinoma, even after previous surgery to remove the ovaries, fallopian tubes and uterus. Hereditary breast-ovarian cancer (HBOC) syndrome and the associated BRCA1 and BRCA2 mutations are particularly prevalent in women of Jewish lineage, and specific BRCA1 and BRCA2 germline mutations have been linked with peritoneal carcinoma and HBOC syndrome in Jewish populations, especially those of Ashkenazi descent. This review presents the currently available data and looks forward toward further and better understanding of peritoneal carcinoma in women with inherited susceptibility. Over 90% of peritoneal cancer in patients from HBOC syndrome kindreds and associated with BRCA1 and BRCA2 mutations are serous carcinomas, which is equivalent with the proportion of ovarian cancers that are serous carcinomas in similar patients. The best indications are that while many peritoneal carcinomas in genetically susceptible women may arise directly from malignant transformation of the peritoneum, others might represent metastases from primary ovarian or fallopian tube carcinomas. Although the incidence of borderline ovarian tumors may not be increased in HBOC syndrome kindreds and those who carry cancer-associated BRCA1 and BRCA2 mutations, these individuals could be susceptible to malignant transformation of borderline lesions of the ovaries and peritoneum. Moreover, recent reports raise the question of possibly increased risk in Jewish carriers of germline BRCA1 mutations for uterine papillary serous carcinoma, which could be the source of metastasis to the peritoneum in some cases. The penetrance of cancer-associated BRCA1 mutations for ovarian cancer is estimated to be 11%-54%, and for BRCA2 mutations the penetrance for ovarian cancer is 11%-23%. So far, available screening methods appear to be insufficient for early detection of many ovarian cancers. Prophylactic oophorectomy has been found to reduce the risk for ovarian cancer in women from HBOC kindreds and those who carry cancer-associated BRCA1 and BRCA2 mutations, leaving a residual risk for peritoneal carcinomatosis of well less than 5%. Therefore, surgical removal of the ovaries, fallopian tubes and uterus, after child-bearing has been completed and by early in the fifth decade of life, are appropriate prophylactic procedures in women whose genetic susceptibility puts them at increased risk for cancers of mullerian tract origin, including ovarian and fallopian tube carcinomas and possibly serous carcinoma of the uterus. Hysterectomy, as well as salpingo-oophorectomy, removes the gynecologic organs targeted for malignant transformation in genetically susceptible women and simplifies decisions regarding hormone replacement therapy and chemical prophylaxis and treatment of breast cancer. Unless a transabdominal operative approach is otherwise indicated, laparoscopic-assisted transvaginal techniques are well suited for intra-abdominal exploration, cytology, biopsies and prophylactic salpingo-oophorectomy and hysterectomy in women with hereditary susceptibility to gynecologic cancer.

Synthesis of constrained raloxifene analogues by complementary use of Friedel-Crafts and directed remote metalation reactions

New constrained heterocyclic analogues, 2a,b and 3, of Raloxifene (1) have been prepared by complementary Directed remote Metalation (DreM)/Friedel-Crafts cyclization approaches. Utilization of a benzylidene-thiolactone rearrangement was successfully implemented to construct benzothiophenes 13a-c in good yields. Selective deprotection of 13a and 13b induced by complexation followed by triflation gave 18 and 23, thereby allowing efficient Suzuki-Miyaura cross coupling with borolane 16 to give biaryls 19 and 24. Treatment of 19 with BCl(3) induced an intramolecular para Fridel-Crafts cyclization and concomitant double deprotection to furnish analogue 2a, a new 5,6,6,6-(C(4)S-C(6)-C(6)-C(6)) sulfur-containing heterocycle. Exposure of 25 with excess LDA induced a DreM cyclization delivering the ortho-substituted 5,6,6,6-(C(4)S-C(6)-C(6)-C(6)) heterocylic analogue 26 in 70% yield. Similar treatment of 13c and 27 afforded 30, representing the novel 5,5,6,6-(C(4)S-C(5)-C(6)-C(6)) ring system, which was subjected to Suzuki-Miyaura cross coupling with 16 to give the biaryl 31 in 93% yield; deprotection furnished the final constrained analogue 3.

Raloxifene improves endothelial dysfunction in hypertension by reduced oxidative stress and enhanced nitric oxide production

BACKGROUND

It has not been completely clarified whether selective estrogen receptor modulators (SERMs) such as raloxifene exert vasoprotective effects similar to those of estrogens.

METHODS AND RESULTS

To investigate vascular effects of raloxifene, male spontaneously hypertensive rats were treated for 10 weeks with either raloxifene (10 mg x kg(-1) x d(-1)) or vehicle. Raloxifene improved endothelium-dependent vasodilatation but had no effect on either endothelium-independent vasorelaxation or phenylephrine-induced vasoconstriction. Raloxifene treatment increased the release of NO from the vessel wall by enhanced expression and activity of endothelial NO synthase. Blood pressure reduction after bradykinin infusion was more pronounced in animals treated with SERMs. The production of superoxide in intact aortic segments was decreased by raloxifene treatment. Administration of raloxifene had no effect on the expression of the essential NAD(P)H oxidase subunits p22phox and nox1 in the vasculature but reduced the activity and expression of vascular membrane-bound rac1, a GTPase required for the activation of the NAD(P)H oxidase. Finally, blood pressure levels were significantly decreased in spontaneously hypertensive rats treated with raloxifene. All SERM effects were also detected in healthy age-matched Wistar rats. In cultured rat aortic vascular smooth muscle cells, raloxifene inhibited angiotensin II-induced reactive oxygen species production dependent on estrogen receptor activation.

CONCLUSIONS

Raloxifene treatment improves hypertension-induced endothelial dysfunction by increased bioavailability of NO. This is achieved by an increased activity of endothelial NO synthase and by an estrogen receptor-dependent reduction in release of reactive oxygen species from vascular cells. These vascular effects cause a profound blood pressure reduction and lead to decreased vascular damage in male spontaneously hypertensive rats.

Estrogens and lipids. Can HRT designer estrogens, and phytoestrogens reduce cardiovascular risk markers after menopause?

HRT may act preventively to reduce morbidity and mortality from cardiovascular disease in primary prevention. The development of SERMs adds a new, exciting, and promising therapeutic option to this field, as does the enhanced availability of soy phytoestrogen products. Although clinical trial data are incomplete, epidemiologic studies suggest that HRT raises HDL-C and triglyceride levels and lowers LDL-C levels. In addition, HRT lowers levels of Lp(a). These changes account for up to 50% of the cardiovascular risk reduction observed with HRT. In contrast, SERMs have less uniform effects. Both SERMs and phytoestrogens are less potent than HRT but have greater tissue selectivity. Although further study is needed, current information suggests that SERMs and phytoestrogens have significant potential to reduce CAD risk and may be a viable alternative to HRT for modest lowering of lipid levels. Phytoestrogens may be particularly useful for reducing CAD risk in men because they do not cause the side effects associated with estrogen. Additional clinical trials are necessary to determine whether the favorable lipid effects associated with HRT, SERMs, and phytoestrogens are linked to protection against cardiovascular disease. Nonetheless, physicians should consider the use of HRT, SERMs, and phytoestrogens for lowering lipid levels and reducing cardiovascular risk in women.

New approaches to the treatment of osteoporosis

Under physiological conditions, maintenance of skeletal mass is the result of a tightly coupled process of bone formation and bone resorption. Disease states, osteoporosis included, arise when this delicate balance is disrupted such as in menopause, when estrogen levels decrease dramatically corresponding with the cessation of ovarian function. Current therapies for the treatment of osteoporosis, including estrogen replacement therapy, selective estrogen receptor modulators and bisphosphonates, are primarily based on blunting the resorption component of bone homeostasis. Although selective estrogen receptor modulators offer bone protection without the side effects of estrogen replacement therapy, there are some areas of improvement for the current generation of selective estrogen receptor modulators; particularly in reducing their antagonistic properties in the central nervous system that lead to vasomotor symptoms. There are few therapies that are focused on increasing bone formation, but they offer promising avenues in which to expand the repertoire of drugs to restore bone mass. Selective androgen receptor modulators, parathyroid hormone analogs, oxytocin analogs and statins, all with improved pharmacological properties in bone, are among the potential approaches to eliciting anabolic effects in the skeleton.